Scientists
at the Scientists at the Scripps Research Institute have discovered
an important mutation in the human genome, resulting in humans’ unique brain. A
duplication of the SRGAP2 gene allows for more connections and a larger brain.
Usually duplications in the human genome would help the original gene, which
functions in neuron sprout connections. However, this mutated gene interferes
with the original function. When scientists expressed the mutated gene in mice,
they noticed that the major neurons of the cortex, pyramidal neurons migrated
faster during maturation, but took longer to sprout the dendrites. This delayed
the maturation of dendrite spines and resulted in a surprise. This delay
produced many more spines when they finally matured, resulting in many more
connections. The new pyramidal neuron of mice looked similar to those of
humans. Scientists concluded that when the gene duplicated, many more
connections between neurons would have occurred enlarging the brain. This
resulted many behavioral differences between humans and primates. Scientists
have added this major mutation to the evolution of humans.
The article
relates to our studies because it discusses the nervous system and specific
nerve cells. We learnt about the structure and function of dendrites and the
connections between the neurons. The increase of dendrites and connections
would create more areas of receiving signals and transmitting them on to other
neurons. The article reasons that this is what developed the uniquely large
brain with millions of connections and neurons. Also, the article connects this
to the evolution of humans which relates to our unit on animals and evolution.
As you have mentioned, this article relates to our unit on evolution. How, based on natural selection, did this gene duplication separate humans from other primates?
ReplyDeleteThis gene duplication allowed humans to develop a larger brain with many more connections between neurons. This gave humans the ability of speech and expressing emotions using words. The ability to effectively communicate with others of the same species makes humans more fit for natural selection. This has enabled humans to achieve many things such as agriculture, literature, art, music, technology, and philosophy. These achievements differentiate humans from other primates.
DeleteIn addition to that this mutation changes behavior, is there anything else that is greatly impacted by this phenomenon? Maybe does this impact any other function of the nervous system?
ReplyDeleteI was not able to find much current information on the other effects this duplication had on the nervous system. The article states that this duplication allowed time for a larger brain to develop with more connections between neurons. Maybe the increase in connections made reactions quicker and more thought out because the signal can travel quicker with more connections. Another possible effect might be humans' ability to process lots of information and formulate a conclusion with observation.
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